Crystal Oscillator SPXO

NZ2016SH

RoHS Compliant Directive 2011/65/EU Directive(EU)2015/863

Pb free

AEC

Application

・Automotive navigation system, Automotive audio equipment and Camera
・Smartphone, Tablet computers, Notebook PC, PC card, etc.
・Audio equipment and Wireless module
・Communication equipment for SDH/SONET, WiMAX, LTE, etc. and Base stations

Features

・Wide temperature range from –40 to +125 °C.
・Ultra compact and light. Dimensions : 2.0 x 1.6 x 0.7 mm, weight : 0.01 g.
・Support low frequencies (from 1.5 MHz) not easily achieved with crystal units of the same size.
・Low phase jitter:Typ. 100 fs (Frequency Offset : 12 kHz to 20 MHz) @80 MHz, 3.3 V
・Automatic mounting by taping and IR reflow (lead free soldering) are possible
・Lead-free.
・Conforms to AEC-Q100/Q200

Item Symbol Value Unit
Nominal frequency range fnom
1.5 ≦ F ≦ 80
MHz
Package size (L×W×H) - 2.0×1.6×0.7 mm
Supply voltage Vcc
+1.8 to +3.3
V
Current consumption ICC
Max. 9.0
mA
Stand-by current IST
Max. 20
μA
Output specification -

CMOS

-
Load CL Max. 15 pF
Storage temperature range Tstr -55 to +125
Operating temperature range Topr
-40 to +125 -40 to +105 -40 to +85 -10 to +70 -10 to +60
Overall frequency tolerance Df/fnom
Max. ±100 Max. ±50 Max. ±50 Max. ±30 Max. ±20
ppm
Output voltage VOL
Max. 0.1 VCC
V
Output voltage VOH
Min. 0.9 VCC
V
Rise (tr), fall (tf) time +1.8V tr/tf
Max. 6
ns
Rise (tr), fall (tf) time +2.5 to +3.3V tr/tf
Max. 5
ns
Symmetry SYM 45 to 55 %
Start-up time tsu
Max. 4
ms

Stand-by function

#1 PAD input #3 PAD output
H Level (0.7 VCC to VCC) or OPEN Operating
L Level (0.3 VCC max) High impedance

Specification number

Overall frequency tolerance
(ppm)
Operating temperature range
(°C)
Supply voltage(V)
Typ. +1.8 Typ. +2.5 Typ. +3.0 Typ. +3.3
±100 -40 to +125 NSC5019A NSC5019B NSC5019C NSC5019D
±50 -40 to +105 NSC5021A NSC5021B NSC5021C NSC5021D
±50 -40 to +85 NSC5022A NSC5022B NSC5022C NSC5022D
±30 -10 to +70 NSC5024A NSC5024B NSC5024C NSC5024D
±20 -10 to +60 NSC5025A NSC5025B NSC5025C NSC5025D

External dimensions

Output Wave 1

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